Abstract
This paper presents a subharmonic switching (SHS) digital power amplifier (PA) architecture that enhances power efficiency in the power back-off (PBO) region. The proposed technique can be combined with the class-G operation. By using either SHS or dual-power supply switching, it can provide several peak efficiency points, located at 0, -3.5, -9.5, and, -13 dB PBO. By judiciously choosing the optimal operation mode between SHS and dual supplies for each PA cell at different output power levels, we can further improve the efficiency between peaks. The SHS PA prototype is implemented with a switched-capacitor PA (SCPA) architecture in 65-nm CMOS to validate the effectiveness of the proposed technique, which achieves a 26.8-dBm peak output power with a 49.3% peak drain efficiency (DE) at 2.25 GHz and a 27% DE at -13-dB PBO.
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